Overview about low-level and high-level decision diagrams for diagnostic modeling of digital systems
BDDs have become the state-of-the-art data structure in VLSI CAD. In this paper, a special class of BDDs is presented called Structurally Synthesized BDDs (SSBDD). The idea of SSBDDs is to establish one-to-one mapping between the nodes of SSBDDs and signal paths in the related digital circuit. Such...
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| Veröffentlicht in: | Facta universitatis. Series Electronics and energetics 2011, Vol.24 (3), p.303-324 |
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| container_title | Facta universitatis. Series Electronics and energetics |
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| creator | Ubar, Raimund |
| description | BDDs have become the state-of-the-art data structure in VLSI CAD. In this
paper, a special class of BDDs is presented called Structurally Synthesized
BDDs (SSBDD). The idea of SSBDDs is to establish one-to-one mapping between
the nodes of SSBDDs and signal paths in the related digital circuit. Such a
mapping allowed to investigate and solve with SSBDDs a lot of test and
diagnosis related problems of digital circuits, which are associated
explicitly with the structure. Such problems are, for example, direct
representation of faults, fault collapsing and fault masking, delay testing,
hazard detection, etc. The main concept of using SSBDDs is laying on the
topological view on the graphs, where each path on a SSBDD can be mapped
directly to a subcircuit of the related circuit. Such a topological view
allowed to generalize the knowledge and methods of test synthesis and fault
analysis from the Boolean level to higher register-transfer and behavior
levels of digital systems by introducing High-Level DDs (HLDD). The paper
gives a short historical overview of the development of SSBDDs and HLDDs.
nema |
| doi_str_mv | 10.2298/FUEE1103303U |
| format | Article |
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paper, a special class of BDDs is presented called Structurally Synthesized
BDDs (SSBDD). The idea of SSBDDs is to establish one-to-one mapping between
the nodes of SSBDDs and signal paths in the related digital circuit. Such a
mapping allowed to investigate and solve with SSBDDs a lot of test and
diagnosis related problems of digital circuits, which are associated
explicitly with the structure. Such problems are, for example, direct
representation of faults, fault collapsing and fault masking, delay testing,
hazard detection, etc. The main concept of using SSBDDs is laying on the
topological view on the graphs, where each path on a SSBDD can be mapped
directly to a subcircuit of the related circuit. Such a topological view
allowed to generalize the knowledge and methods of test synthesis and fault
analysis from the Boolean level to higher register-transfer and behavior
levels of digital systems by introducing High-Level DDs (HLDD). The paper
gives a short historical overview of the development of SSBDDs and HLDDs.
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paper, a special class of BDDs is presented called Structurally Synthesized
BDDs (SSBDD). The idea of SSBDDs is to establish one-to-one mapping between
the nodes of SSBDDs and signal paths in the related digital circuit. Such a
mapping allowed to investigate and solve with SSBDDs a lot of test and
diagnosis related problems of digital circuits, which are associated
explicitly with the structure. Such problems are, for example, direct
representation of faults, fault collapsing and fault masking, delay testing,
hazard detection, etc. The main concept of using SSBDDs is laying on the
topological view on the graphs, where each path on a SSBDD can be mapped
directly to a subcircuit of the related circuit. Such a topological view
allowed to generalize the knowledge and methods of test synthesis and fault
analysis from the Boolean level to higher register-transfer and behavior
levels of digital systems by introducing High-Level DDs (HLDD). The paper
gives a short historical overview of the development of SSBDDs and HLDDs.
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paper, a special class of BDDs is presented called Structurally Synthesized
BDDs (SSBDD). The idea of SSBDDs is to establish one-to-one mapping between
the nodes of SSBDDs and signal paths in the related digital circuit. Such a
mapping allowed to investigate and solve with SSBDDs a lot of test and
diagnosis related problems of digital circuits, which are associated
explicitly with the structure. Such problems are, for example, direct
representation of faults, fault collapsing and fault masking, delay testing,
hazard detection, etc. The main concept of using SSBDDs is laying on the
topological view on the graphs, where each path on a SSBDD can be mapped
directly to a subcircuit of the related circuit. Such a topological view
allowed to generalize the knowledge and methods of test synthesis and fault
analysis from the Boolean level to higher register-transfer and behavior
levels of digital systems by introducing High-Level DDs (HLDD). The paper
gives a short historical overview of the development of SSBDDs and HLDDs.
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| ispartof | Facta universitatis. Series Electronics and energetics, 2011, Vol.24 (3), p.303-324 |
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| source | DOAJ Directory of Open Access Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals |
| title | Overview about low-level and high-level decision diagrams for diagnostic modeling of digital systems |
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